CN204178210U - Intelligent control device and intelligent control system - Google Patents
Intelligent control device and intelligent control system Download PDFInfo
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- CN204178210U CN204178210U CN201420520571.3U CN201420520571U CN204178210U CN 204178210 U CN204178210 U CN 204178210U CN 201420520571 U CN201420520571 U CN 201420520571U CN 204178210 U CN204178210 U CN 204178210U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
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Abstract
The utility model relates to an intelligent control device and intelligent control system, this intelligent control device includes a microprocessor, a first communication unit, a second communication unit, a digital signal input unit, an analog signal input unit, a digital signal output unit, an analog signal output unit, a first communication unit, the second communication unit, digital signal input unit, analog signal input unit, digital signal output unit, analog signal output unit electric connection respectively in microprocessor, this intelligent control system includes a plurality of intelligent control device as foretell, electric connection between a plurality of intelligent control device. The intelligent control device and the intelligent control system have the intelligent control function, and are low in cost and low in energy consumption.
Description
[technical field]
The utility model relates to field of intelligent control technology, particularly a kind of intelligent controlling device and intelligent control system.
[background technology]
Along with the growth in the living standard of people, the applicable cases of intelligent artifact is also progressively complicated and rich and varied, only can not meet the growing demand of people by simple switch control rule, so require that the control system in life possesses the function of Based Intelligent Control.
And in present advanced technology application, most all have perfect central management and robot control system(RCS), also some control device adopts PLC (ProgrammableLogic Controller, programmable logic controller (PLC)) carry out internal processes setting, its digital signal and simulating signal are all divided into two different passages usually, a PLC or incoming digital signal, incoming analog signal, digital signal and simulating signal integrative control can not be realized, and this technical costs is too high, power consumption large, is not suitable in daily life.
[utility model content]
For overcoming many difficult problems of prior art, the utility model provides a kind ofly possesses intelligent control function and low low intelligent controlling device and the intelligent control system of consuming energy again of cost.
The scheme of the utility model technical solution problem is to provide a kind of intelligent controlling device, this intelligent controlling device comprises a microprocessor, one first communication unit, one second communication unit, one digital signal input block, one simulating signal input block, one digital signal output unit, one analog signal output unit, the first communication unit, second communication unit, digital signal input block, simulating signal input block, digital signal output unit, analog signal output unit are electrically connected at microprocessor respectively.
Preferably, comprise a self-sensing unit further, this self-sensing unit is electrically connected at microprocessor, the built-in correction module of self-sensing unit.
Preferably, comprise an interchange further and turn direct current component, this interchange turns direct current component and is electrically connected at microprocessor.
Preferably, comprise a PWM regulon further, it is single or multiple PWM output loop, and this output loop is connected with light fixture, and this PWM regulon is electrically connected at microprocessor.
Preferably, comprise a system protection unit further, this system protection unit is electrically connected at microprocessor.
Preferably, comprise a load feedback detecting unit further, this load feedback detecting unit is electrically connected at microprocessor.
Preferably, this interchange turns direct current component and is circumscribed with a solar cell.
The another scheme of the utility model technical solution problem is to provide a kind of intelligent control system, and this intelligent control system comprises multiple intelligent controlling device described above, is electrically connected between multiple intelligent controlling device.
Preferably, second communication unit wireless or wired connection have access device, this access device is connected to digital signal output unit and/or analog signal output unit, and this access device comprises home appliance and/or light fixture, and wherein home appliance is TV, refrigerator, air-conditioning.
Preferably, this intelligent control system comprises a monitor supervision platform further, and this monitor supervision platform is connected to intelligent controlling device, and this monitor supervision platform is one or more in mobile phone, computer, panel computer, personal computer or cloud system.
Compared with prior art, intelligent controlling device of the present utility model adopts the duty of other functional units of Microprocessor S3C44B0X, microprocessor cost is low, and dissimilar signal enters digital signal input block or simulating signal input block according to its type selecting, process through microprocessor again, be sent to digital signal output unit or analog signal output unit according to the signal type after process.Generally, this intelligent controlling device cost is low, and digital signal and simulating signal integrative control can be realized, any equipment this intelligent controlling device all accessible, such as, based on the electrical equipment of carrier wave system, the equipment, CATV (cable television), any wireless device etc. of signal Network Based, this intelligent controlling device all accessible, it is without the need to laying electric system etc. in addition, and it utilizes existing electric system can realize corresponding control.This intelligent controlling device just can carry out overhead control to it by an APP parametric controller, and it is without the need to controlling respectively by multiple APP.
Intelligent controlling device of the present utility model, by the temperature/humidity of self-sensing unit detecting context, can also be detected hardware circuits such as supply voltage/current stability, internal memory, input/output loops.This intelligent controlling device makes this intelligent controlling device can control electricity according to actual needs by PWM regulon, and the size realizing delivery changes, economize energy along with required electricity size.This intelligent controlling device turns direct current component by interchange and transfers alternating current to direct current, all access devices are all directly connected with direct current, safety and reliability is used relative to alternating current, what obtain after our solar cell used at present converts electric energy to luminous energy is direct current, usually this intelligent controlling device could be used after all needing, with solar inverter, this direct current is converted to alternating current, even and if can realize solar cell and also can be directly incorporated into use.
In intelligent control system of the present utility model, intelligent controlling device integrated level is high and volume is little, its size is about 10cm*10cm, and its have can the feature of open setting, its function can be revised according to actual needs, such as be between two parties by the control of this intelligent controlling device access lamp, antitheft or access other function devices to realize corresponding function in occasions such as restaurants, in addition, intelligent controlling device can superpose setting in intelligent control system, for example multiple intelligent controlling device is set in the room that access device is more, can intercom mutually between intelligent controlling device in this intelligent control system, it can integrative control and sensing, very simple and practical.Further, user can arrange various contextual model at monitor supervision platform, be convenient to the integrative control of many equipment, such as user arranges contextual model one, this contextual model can be light and the air-conditioning of opening room simultaneously, and it makes Consumer's Experience variation, easy to useization.Transmission between the process of signal and data all can be uploaded to APP by the first communication unit by intelligent controlling device in this intelligent control system 1 automatically, and user can read at any time in real time, and does not need to read after taking out again.The result that self-sensing unit in each intelligent controlling device can be detected is sent to monitor supervision platform by the first communication unit and informs current state, the correction module of its inside carries out correct detection to its data sensed, as there is larger error, intelligent controlling device reports an error and automatically by this information feed back to monitor supervision platform, thus guarantees that system works well.
[accompanying drawing explanation]
Fig. 1 is the circuit modular structure schematic diagram of the utility model intelligent controlling device.
Fig. 2 is the circuit modular structure schematic diagram of the utility model intelligent control system.
[embodiment]
In order to make the purpose of this utility model, technical scheme and advantage are clearly understood, below in conjunction with accompanying drawing and embodiment, are further elaborated to the utility model.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.
Refer to Fig. 1; the utility model intelligent controlling device 10 comprises microprocessor 101; it comprises interchange further and turns direct current component 102, first communication unit 103, second communication unit 104, digital signal input block 105, digital signal output unit 106, simulating signal input block 107, analog signal output unit 108, PWM regulon 109, system protection unit 110, self-sensing unit 111 and load feedback detecting unit 112, and these unit are all electrically connected with microprocessor 101.
Refer to Fig. 2, this intelligent controlling device 10 can be used for the lamp control in room, the various occasions such as antitheft and restaurant, it can single setting in room, also setting can be superposed, realize intercoming mutually by multiple intelligent controlling device 10, this intelligent controlling device 10 is by connecting monitor supervision platform 200, access device 340, power supply (non-label) and line concentration base (non-label) etc. form intelligent control system 1, monitor supervision platform 200 can be mobile phone, computer, panel computer, personal computer or cloud system or running gear etc. possess equipment or the figure control interface software of wired or wireless transmission function, access device 340 comprises home appliance (not shown), light fixture (not shown), air valve, water valve etc., wherein home appliance can be inductor, TV, refrigerator, the equipment such as air-conditioning, light fixture can be various light fixture.User can install APP and realize remote control by radio communication and this intelligent controlling device 10 to fetching on monitor supervision platform 200.Monitor supervision platform 200 also can be placed in corresponding room or corridor, and it is connected with intelligent controlling device 10 is wired or wireless.The APP interface of client also can arrange multiple contextual model, and this contextual model can be arrange for an access device 340 or be wholely set for multiple access device 340.User can be controlled by APP client, and access device 340 can be connected to digital signal output unit 106 or analog signal output unit 108 or second communication unit 104 according to concrete equipment choice is wired or wireless.
Microprocessor 101 controls the duty of each functional unit in this intelligent controlling device 10, it has calculating/System Operation/control/I/O/communication/simulating signal and turns the processing capacities such as digital signal/digital signal revolving die analog signal, and this microprocessor 101 volume is little and lightweight.
Exchange and turn the direct current that direct current component 102 primary responsibility is converted to the alternating current of 100 ~ 240V 3V/5V/12V/24V ~ 48V, the voltage after its conversion is used for supply circuit and output load voltage used, and its current output value can adjust with use amount.Intelligent controlling device 10 turns direct current component 102 by this interchange and transfers alternating current to direct current, all access devices 340 are all directly connected with direct current, safety and reliability is used relative to alternating current, what obtain after our solar cell used at present converts electric energy to luminous energy is direct current, usually could be used after all needing, with solar inverter, this direct current is converted to alternating current, even and if this intelligent controlling device 10 can realize solar cell also can be directly incorporated into use, this interchange turns the external solar cell (not shown) of direct current component 102, it provides power supply for all functions unit.
First communication unit 103 is intelligent controlling device 10 and the outside communication unit carrying out Signal transmissions, the external both-way communication of its primary responsibility, according to the difference of system communication pattern, it can be adjusted to wire communication, the communication modes such as such as RS-232/RS-485/CAN_BUS/ network/power carrier, it also can be adjusted to wireless telecommunications, such as wireless network/bluetooth/wireless communications mode such as Zigbee/ infrared ray and other radio bands, described wire communication and wireless telecommunications all can single communication or multiplex communication mode used in combination.When the first communication unit 103 receives external signal, it transmits the signal to microprocessor 101 and processes, signal notice second communication unit 104/ digital signal output unit 106/ analog signal output unit 108/PWM regulon 109 after process is made corresponding action according to the instruction of the first communication unit 103 by microprocessor 101, and next the electric signal of correspondence is fed back to monitor supervision platform 200 by this first communication unit 103 again.
Second communication unit 104 connects access device 340, and it is that internal control connects bi-directional communication system, and it is the same with the first communication unit 103, and can be adjusted to wire communication, wireless telecommunications and multiplex communication mode used in combination.After this second communication unit 104 receives the action command of microprocessor 101, signal is transferred to the access device 340 that communication format passes to communication wired or wireless with it.
The actuating signals such as digital signal input block 105 primary recipient HI-LO/LO-HI, it connects and corresponds to the action equipment (not shown) of access device 340, and this action equipment is generally passive switch or N/P type collection level output device or support type output device.After the digital signal of outside enters digital signal input block 105, proceed to microprocessor 101 to process, signal after process informs digital signal output unit 106/ analog signal output unit 108/ second communication unit 104/PWM regulon 109 and does corresponding action, then transmits signals to monitor supervision platform 200 by the first communication unit 103 and inform the state of equipment corresponding to current digital signal output unit 106/ analog signal output unit 108/ second communication unit 104/PWM regulon 109.
Digital signal output unit 106 mainly exports the actuating signals such as HI-LO/LO-HI, and the way of output is that N/P type collection level exports or support type exports.
Simulating signal input block 107 is mainly used in sensing apparatus (as humiture, smell, button pressure sensitivity etc.) access, and it receives from sensing apparatus signal.Simulating signal input block 107 receives 0 ~ 25mA electric current or 0 ~ 10V voltage, is processed by the curtage received and be converted to digital signal in microprocessor 101.After the simulating signal of outside enters simulating signal input block 107, proceed to microprocessor 101 to process, signal after process informs digital signal output unit 106/ analog signal output unit 108/ second communication unit 104/PWM regulon 109 and does corresponding action, then transmits signals to monitor supervision platform 200 by the first communication unit 103 and inform the state of access device 340 corresponding to current digital signal output unit 106/ analog signal output unit 108/ second communication unit 104/PWM regulon 109.
Analog signal output unit 108 mainly exports 0 ~ 25mA electric current or the such simulating signal of 0 ~ 10V voltage, the simulating signal that its digital signal that microprocessor 101 can also be processed is converted.
PWM (Pulse Width Modulation, pulse-length modulation) regulon 109 is single or multiple PWM output loop, PWM output loop is connected to load LED, the quantity of this output loop and the curtage of output load all can increase according to actual needs or successively decrease, the major function of this PWM regulon 109 is LED light modulation or ON/OFF control, its control voltage is the DC voltage of 5V ~ 48V, and it controls electric current is more than zero to tens of ampere.This PWM regulon 109 can do light modulation or ON/OFF control according to all size of light fixture, its each loop can serial or parallel connection one to hundreds of above LED.The curtage of the output load of this PWM regulon 109 can increase according to the actual requirements or successively decrease.
System protection unit 110 has system automatic protection functions; when occur circuit overloads/temperature too high/load and short circuit/assembly burn/problem such as external disturbance time, these emergency situations are reflected in real time to microprocessor 101 and the safety of take measures on customs clearance protection circuit and system by this system protection unit 110.
Self-sensing unit 111 primary responsibility ego function is detected, the detecting of the temperature/humidity of such as context, the hardware circuit such as supply voltage/current stability, internal memory, input/output loop is detected, and detecting result is sent to monitor supervision platform 200 by the first communication unit 103 and informs current state, guarantee that system works well.This self-sensing unit 111 inside is provided with multiple correction module 1111, and this correction module 1111 carries out correct detection to its data sensed, and as there is larger error, this intelligent controlling device 10 reports an error automatically, and by this information feed back to monitor supervision platform 200.
Load feedback detecting unit 112 is mainly used in detecting every primary Ioops PWM load voltage/electric current/impedance/frequency, adjusts the action of PWM output state, to ensure stability and the consistance of output load simultaneously.This load feedback detecting unit 112 by backend load signal transmission to microprocessor 101, data notification after analyzing is done corresponding action to digital signal output unit 106/ analog signal output unit 108/ second communication unit 104/PWM regulon 109 after analyzing according to the planning procedure of inside by microprocessor 101 again, then transmits signals to monitor supervision platform 200 by the first communication unit 103 and inform the state of access device 340 corresponding to current digital signal output unit 106/ analog signal output unit 108/ second communication unit 104/PWM regulon 109.
User directly sends instruction by monitor supervision platform 200, or directly acts on the action equipment that is connected with digital signal input block 105 to control access device 340.When monitor supervision platform 200 sends instruction, after first communication unit 103 Received signal strength by this signal transmission to microprocessor 101, first microprocessor 101 conducts interviews to the digital signal input block 105 be arranged in room or simulating signal input block 107, when it is just at busy condition, also just represent in room and have user to send order to intelligent controlling device 10, microprocessor 101 suspends the process to the signal that monitor supervision platform 200 sends over, it carries out real time access to the digital signal input block 105 be arranged in room or simulating signal input block 107, when it is in idle condition, microprocessor 101 performs the signal instruction from monitor supervision platform 200.The pattern that first communication unit 103 receives can be adjusted to wire communication according to the difference of system communication pattern, wireless telecommunications or multiplex communication mode, the signal received imports microprocessor 101 into and processes, microprocessor 101 carries out systems scan by system protection unit 110, if detect connected circuit occur circuit overloads/temperature too high/load and short circuit/assembly burn/problem such as external disturbance time, these emergency situations are sent to microprocessor 101 and by microprocessor 101, abnormal signal are back to monitor supervision platform 200 by the first communication unit 103 by system protection unit 110 in real time, the safety of protection circuit and the system of simultaneously taking measures on customs clearance, if system protection unit 110 does not detect abnormal signal, so microprocessor 101 transmits signals to self-sensing unit 111, whether supply voltage/current stability,/internal memory/input/output loop that this self-sensing unit 111 detects the temperature/humidity of context and hardware circuit is normal, if detect abnormal conditions, correction module 1111 in self-sensing unit 111 corrects the data that it senses, as there is larger error, abnormal signal is recycled to microprocessor 101 and by microprocessor 101, abnormal signal is back to monitor supervision platform 200 by the first communication unit 103 by self-sensing unit 111, these abnormal conditions are informed user.If the signal that system protection unit 110 and self-sensing unit 111 detect is all normal; then this signal transmission is done corresponding action to digital signal output unit 106/ analog signal output unit 108/ second communication unit 104/PWM regulon 109, then transmit signals to monitor supervision platform 200 by the first communication unit 103 and inform the state of access device 340 corresponding to current digital signal output unit 106/ analog signal output unit 108/ second communication unit 104/PWM regulon 109.
When user directly acts on action equipment, digital signal input block 105 directly by signal transmission to microprocessor 101, when after the sensing apparatus signal that simulating signal input block 107 receives with the sensing apparatus of its electric connection, its by this signal transmission to microprocessor 101, after sending action command by monitor supervision platform 200, signal imports microprocessor 101 into by the first communication unit 103, user can set whether open system protection unit 110 and self-sensing unit 111 according to actual needs in advance, if system protection unit 110 and self-sensing unit 111 are in closed condition, this signal is directly passed to digital signal output unit 106/ analog signal output unit 108/ second communication unit 104/PWM regulon 109 and does corresponding action by microprocessor 101, transmit signals to monitor supervision platform 200 by the first communication unit 103 again and inform the state of the access device 340 corresponding to current digital signal output unit 106/ analog signal output unit 108/ second communication unit 104/PWM regulon 109.If system protection unit 110 and self-sensing unit 111 are in open mode, microprocessor 101 carries out systems scan by system protection unit 110, if detect connected circuit occur circuit overloads/temperature too high/load and short circuit/assembly burn/problem such as external disturbance time, these emergency situations are sent to microprocessor 101 and by microprocessor 101, abnormal signal are back to monitor supervision platform 200 by the first communication unit 103 by system protection unit 110 in real time, the safety of protection circuit and the system of simultaneously taking measures on customs clearance, if system protection unit 110 does not detect abnormal signal, so microprocessor 101 transmits signals to self-sensing unit 111, whether supply voltage/current stability,/internal memory/input/output loop that this self-sensing unit 111 detects the temperature/humidity of context and hardware circuit is normal, if detect abnormal conditions, correction module 1111 in self-sensing unit 111 corrects the data that it senses, as there is larger error, abnormal signal is recycled to microprocessor 101 and by microprocessor 101, abnormal signal is back to monitor supervision platform 200 by the first communication unit 103 by self-sensing unit 111, these abnormal conditions are informed user.If the signal that system protection unit 110 and self-sensing unit 111 detect is all normal; this signal transmission is done corresponding action to digital signal output unit 106/ analog signal output unit 108/ second communication unit 104/PWM regulon 109 by microprocessor 101, then transmits signals to monitor supervision platform 200 by the first communication unit 103 and inform the state of access device 340 corresponding to current digital signal output unit 106/ analog signal output unit 108/ second communication unit 104/PWM regulon 109.Certain user also can only arrange as required system protection unit 110 and self-sensing unit 111 one of them.
PWM regulon 109 is when receiving the electric signal from microprocessor 101, the increase in demand of the output load current that this PWM regulon 109 can provide according to the IP address of prior setting light fixture and according to micro-process 101 or voltage or successively decrease, and the service condition of light fixture is detected by load feedback unit 112, if light fixture breaks down cause the change of power consumption, so load feedback detecting unit 112 maintains the brightness of light fixture and abnormal signal is recycled to microprocessor 101 and by microprocessor 101, abnormal signal is back to monitor supervision platform 200 by the first communication unit 103, these abnormal conditions are informed user, if light fixture behaviour in service is normal, so PWM regulon 109 can start light fixture or cut out or light modulation, when carrying out light modulation, this PWM regulon 109 control simulation circuit in a digital manner, the pwm signal exported is added to load with the repetition pulse sequence of one logical (ON) or disconnected (OFF) and gets on, when pwm signal is high level, LED is luminous, when pwm signal is low level, LED is not luminous, because change frequency has eye storage characteristic than very fast and human eye, so the luminescence of our imperceptible indirect is not with luminous, LED luminance can be realized by fixing frequency operation dutycycle according to actual conditions to regulate, serve energy-conserving action like this, reduce cost and the power consumption of whole system significantly.
Compared with prior art, intelligent controlling device 10 of the present utility model adopts microprocessor 101 to control the duty of other functional units, microprocessor 101 cost is low, and dissimilar signal enters digital signal input block 105 or simulating signal input block 107 according to its type selecting, process through microprocessor 101 again, be sent to digital signal output unit 106 or analog signal output unit 108 according to the signal type after process.Generally, this intelligent controlling device 10 cost is low, and digital signal and simulating signal integrative control can be realized, any equipment this intelligent controlling device 10 all accessible, such as, based on the electrical equipment of carrier wave system, the equipment, CATV (cable television), any wireless device etc. of signal Network Based, this intelligent controlling device 10 all accessible, it is without the need to laying electric system etc. in addition, and it utilizes existing electric system can realize corresponding control.This intelligent controlling device 10 just can carry out overhead control to it by an APP parametric controller, and it is without the need to controlling respectively by multiple APP.
Intelligent controlling device 10 of the present utility model detects the temperature/humidity of context by self-sensing unit 111, can also detect hardware circuits such as supply voltage/current stability, internal memory, input/output loops.This intelligent controlling device 10 makes this intelligent controlling device 10 can control electricity according to actual needs by PWM regulon 109, and the size realizing delivery changes, economize energy along with required electricity size.This intelligent controlling device 10 turns direct current component 102 by interchange and transfers alternating current to direct current, all access devices are all directly connected with direct current, safety and reliability is used relative to alternating current, what obtain after our solar cell used at present converts electric energy to luminous energy is direct current, usually this intelligent controlling device 10 could be used after all needing, with solar inverter, this direct current is converted to alternating current, even and if can realize solar cell and also can be directly incorporated into use.
In intelligent control system 1 of the present utility model, intelligent controlling device 10 integrated level is high and volume is little, its size is about 10cm*10cm, and its have can the feature of open setting, its function can be revised according to actual needs, such as be in and between two parties this intelligent controlling device 10 accessed lamp control, antitheft or access other function devices to realize corresponding function in occasions such as restaurants, in addition, intelligent controlling device 10 can superpose setting in intelligent control system 1, for example multiple intelligent controlling device 10 is set in the room that access device is more, can intercom mutually between intelligent controlling device 10 in this intelligent control system 1, it can integrative control and sensing, very simple and practical.Further, user can arrange various contextual model at monitor supervision platform 200, be convenient to the integrative control of many equipment, for example, user arranges contextual model one, and this contextual model can be light and the air-conditioning of opening room simultaneously, it makes Consumer's Experience variation, easy to useization.Transmission between the process of signal and data all can be uploaded to APP by the first communication unit 103 by intelligent controlling device 10 in this intelligent control system 1 automatically, and user can read at any time in real time, and does not need to read after taking out again.The result that self-sensing unit 111 in each intelligent controlling device 10 can be detected is sent to monitor supervision platform 200 by the first communication unit 103 and informs current state, the correction module 1111 of its inside carries out correct detection to its data sensed, as there is larger error, intelligent controlling device 10 reports an error and automatically by this information feed back to monitor supervision platform 200, thus guarantees that system works well.
The foregoing is only preferred embodiment of the present utility model, not in order to limit the utility model, all any amendments done within principle of the present utility model, equivalent replacement and improvement etc. all should comprise within protection domain of the present utility model.
Claims (10)
1. an intelligent controlling device, it is characterized in that: this intelligent controlling device comprises a microprocessor, one first communication unit, one second communication unit, one digital signal input block, a simulating signal input block, a digital signal output unit, one analog signal output unit, the first communication unit, second communication unit, digital signal input block, simulating signal input block, digital signal output unit, analog signal output unit are electrically connected at microprocessor respectively.
2. intelligent controlling device as claimed in claim 1, it is characterized in that: comprise a self-sensing unit further, this self-sensing unit is electrically connected at microprocessor, the built-in correction module of self-sensing unit.
3. intelligent controlling device as claimed in claim 1, it is characterized in that: comprise an interchange further and turn direct current component, this interchange turns direct current component and is electrically connected at microprocessor.
4. intelligent controlling device as claimed in claim 1, it is characterized in that: comprise a PWM regulon further, it is single or multiple PWM output loop, and this output loop is connected with light fixture, and this PWM regulon is electrically connected at microprocessor.
5. intelligent controlling device as claimed in claim 1, it is characterized in that: comprise a system protection unit further, this system protection unit is electrically connected at microprocessor.
6. intelligent controlling device as claimed in claim 1, it is characterized in that: comprise a load feedback detecting unit further, this load feedback detecting unit is electrically connected at microprocessor.
7. intelligent controlling device as claimed in claim 3, is characterized in that: this interchange turns direct current component and is circumscribed with a solar cell.
8. an intelligent control system, is characterized in that: this intelligent control system comprises multiple intelligent controlling device as claimed in claim 1, is electrically connected between multiple intelligent controlling device.
9. intelligent control system as claimed in claim 8, it is characterized in that: second communication unit wireless or wired connection have access device, this access device is connected to digital signal output unit and/or analog signal output unit, this access device comprises home appliance and/or light fixture, and wherein home appliance is TV, refrigerator, air-conditioning.
10. intelligent control system as claimed in claim 8, it is characterized in that: this intelligent control system comprises a monitor supervision platform further, this monitor supervision platform is connected to intelligent controlling device, and this monitor supervision platform is one or more in mobile phone, computer, panel computer, personal computer or cloud system.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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TW103207408U TWM484187U (en) | 2014-04-29 | 2014-04-29 | Lamp control intelligent module |
TW103207408 | 2014-04-29 |
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CN204178210U true CN204178210U (en) | 2015-02-25 |
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CN201420520690.9U Expired - Fee Related CN204178154U (en) | 2014-04-29 | 2014-09-11 | Intelligent sensing control device and intelligent sensing control system |
CN201410460847.8A Pending CN105022370A (en) | 2014-04-29 | 2014-09-11 | Intelligent control device and intelligent control system |
CN201420520571.3U Expired - Fee Related CN204178210U (en) | 2014-04-29 | 2014-09-11 | Intelligent control device and intelligent control system |
CN201410461467.6A Pending CN105022274A (en) | 2014-04-29 | 2014-09-11 | Intelligent sensing control device and intelligent sensing control system |
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CN201410460847.8A Pending CN105022370A (en) | 2014-04-29 | 2014-09-11 | Intelligent control device and intelligent control system |
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CN106873538A (en) * | 2015-12-10 | 2017-06-20 | 魏廉 | A kind of intelligent home control system based on lighting loop |
TWI584678B (en) * | 2016-03-22 | 2017-05-21 | Lamp diagnosis system and method | |
CN107046536A (en) * | 2017-03-27 | 2017-08-15 | 上海能誉科技发展有限公司 | A kind of protocol conversion apparatus of wireless communication transmission mode |
CN107682959A (en) * | 2017-10-20 | 2018-02-09 | 江西百盈高新技术股份有限公司 | Square-wave inverter starts electricity-saving lamp |
CN114898702B (en) * | 2022-04-29 | 2023-10-10 | 卡莱特云科技股份有限公司 | Automatic identification method and system for intelligent module |
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US7613285B2 (en) * | 2004-12-07 | 2009-11-03 | Electronics And Telecommunications Research Institute | System and method for service-oriented automatic remote control, remote server, and remote control agent |
CN101330784A (en) * | 2008-08-04 | 2008-12-24 | 李舒 | Radiotelecontrol intelligent light control system capable of setting control light hint map |
KR20100002587U (en) * | 2008-08-29 | 2010-03-10 | (주)와이즈산전 | A monitor for measuring complex air quality |
CN102213966A (en) * | 2010-04-09 | 2011-10-12 | 宁波中科集成电路设计中心有限公司 | Wireless intelligent measurement and control system of greenhouse |
CN201867643U (en) * | 2010-12-06 | 2011-06-15 | 冯泽 | Intelligent home central controller |
US20130335203A1 (en) * | 2012-06-19 | 2013-12-19 | Yan Long Sun | Portable electronic device for remotely controlling smart home electronic devices and method thereof |
CN203117769U (en) * | 2013-03-11 | 2013-08-07 | 南京农业大学 | Closed type intelligent plant factory monitoring and management system based on wireless sensor network (WSN) technology |
CN103135540B (en) * | 2013-03-22 | 2015-04-22 | 河北大学 | Plant tissue culture environmental information monitoring and simulating system |
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2014
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- 2014-09-11 CN CN201420520690.9U patent/CN204178154U/en not_active Expired - Fee Related
- 2014-09-11 CN CN201410460847.8A patent/CN105022370A/en active Pending
- 2014-09-11 CN CN201420520571.3U patent/CN204178210U/en not_active Expired - Fee Related
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CN105022370A (en) | 2015-11-04 |
CN105022274A (en) | 2015-11-04 |
TWM484187U (en) | 2014-08-11 |
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